RAAV-compatible MiniPromoters for Restricted Expression in the Brain and Eye

Overview

Journal Mol Brain

Publisher Biomed Central

Specialties Molecular Biology
Neurology

Date 2016 May 12

PMID 27164903

Citations 44

Authors

Charles N de Leeuw

Andrea J Korecki

Garrett E Berry

Jack W Hickmott

Siu Ling Lam

Tess C Lengyell

Russell J Bonaguro

Lisa J Borretta

Vikramjit Chopra

Alice Y Chou

Cletus A DSouza

Olga Kaspieva

Stephanie Laprise

Simone C McInerny

Elodie Portales-Casamar

Magdalena I Swanson-Newman

Kaelan Wong

George S Yang

Michelle Zhou

Steven J M Jones

Robert A Holt

Aravind Asokan

Daniel Goldowitz

Wyeth W Wasserman

Elizabeth M Simpson

Affiliations

Soon will be listed here.

Abstract

Background: Small promoters that recapitulate endogenous gene expression patterns are important for basic, preclinical, and now clinical research. Recently, there has been a promising revival of gene therapy for diseases with unmet therapeutic needs. To date, most gene therapies have used viral-based ubiquitous promoters-however, promoters that restrict expression to target cells will minimize off-target side effects, broaden the palette of deliverable therapeutics, and thereby improve safety and efficacy. Here, we take steps towards filling the need for such promoters by developing a high-throughput pipeline that goes from genome-based bioinformatic design to rapid testing in vivo.

Methods: For much of this work, therapeutically interesting Pleiades MiniPromoters (MiniPs; ~4 kb human DNA regulatory elements), previously tested in knock-in mice, were "cut down" to ~2.5 kb and tested in recombinant adeno-associated virus (rAAV), the virus of choice for gene therapy of the central nervous system. To evaluate our methods, we generated 29 experimental rAAV2/9 viruses carrying 19 different MiniPs, which were injected intravenously into neonatal mice to allow broad unbiased distribution, and characterized in neural tissues by X-gal immunohistochemistry for icre, or immunofluorescent detection of GFP.

Results: The data showed that 16 of the 19 (84 %) MiniPs recapitulated the expression pattern of their design source. This included expression of: Ple67 in brain raphe nuclei; Ple155 in Purkinje cells of the cerebellum, and retinal bipolar ON cells; Ple261 in endothelial cells of brain blood vessels; and Ple264 in retinal Müller glia.

Conclusions: Overall, the methodology and MiniPs presented here represent important advances for basic and preclinical research, and may enable a paradigm shift in gene therapy.

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